Mercedes Castañon scite author profile

Mercedes Castañon

3Publications

26Citation Statements Received

0Citation Statements Given

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Affiliations

University of Buenos Aires, Fundación Ciencias Exactas y Naturales

Publications

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Influence of homocysteine on fibrin network lysis

Lauricella

Quintana

Castañon

et al. 2006

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To elucidate some of the links between homocysteine and vascular disease, we have evaluated the effect of the amino acid on the formation (by kinetics studies), structure (by electron microscopy) and lysis of the fibrin network, using tissue-type plasminogen activator (t-PA) and urokinase-type plasminogen activator (u-PA). We have studied whether homocysteine could alter the activity of the components involved in fibrinolysis (by amidolytic and thrombolytic methods). The results showed that homocysteine-associated networks were more compact and branched than controls (52 +/- 6 vs 44 +/- 5 fibers/field, P = 0.008), and were formed by shorter and thicker fibers. This clot proved to be more resistant to fibrinolysis with u-PA than control [lysis time 50%: 257 +/- 16 (homocysteine) vs 187 +/- 6 min (control); P < 0.004], but there were no differences with t-PA. Homocysteine did not affect the biological activities of plasmin, or plasminogen activation by t-PA and u-PA. Defective fibrinolysis with u-PA was therefore associated with homocysteine-fibrin structural alterations rather than the homocysteine effect on the biological activities of the fibrinolytic components evaluated. Results suggest that hyperhomocysteinemic patients could produce tight clots, were more resistant to lysis, and generated a procoagulant environment in situ. We believe that our findings may contribute to understanding the mechanisms involved in the homocysteine harmful effect.

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Prevalence of Three Prothrombotic Polymorphisms

Genoud¹,

Castañon²,

Annichino‐Bizzacchi

et al. 2000

Thrombosis Research

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Characterization of N-homocysteinylated Albumin Adducts

et al. 2014

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Increased plasma homocysteine levels are considered an important risk factor for vascular disease. Homocysteine, an intermediate compound in methionine metabolism, is an amino acid that includes a thiol group, and circulates as different species. One of them, Homocysteine thiolactone (HTL) forms adducts through irreversible reactions with epsilon-NH2 groups of lysine residues. These processes can alter the structure and biological function of diverse proteins that may be involved in the detrimental effects of homocysteine. Particularly, in this work we evaluated HTL-mediated molecular changes in human serum albumin (HSA) through electrophoretic techniques. Albumin and HTL were incubated (37 °C, 6 h) at HSA:HTL molar ratios of 1:25, 1:50 and 1:100. Polyacrylamid gel electrophoresis showed that electrophoretic mobility was increased in the treated HSA respect to control, in an HTL-concentration-dependent manner. That anodic shift of the treated samples was also observed in crossed immunoelectrophoresis profiles. As expected, a decrease in the isoelectric point of the homocysteinylated albumin (pI 4.7) in comparison to that of control (pI 4.8) was shown by the isoelectric focusing technique. Moreover, the electropherogram acquired by capillary zone electrophoresis indicated that migration times and full width at half height were enhanced with the rise of HTL concentration. We propose that the in vitro structural changes of albumin described in the present work would be involved in the harmful effects of the N-homocysteinylation process.

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